Institute for Advanced Study Astrophysics Seminar
Crucial Dynamical Phases in Solar System Formation
The formation and evolution of the giant planets of our Solar System
presents several problems: the cores of the planets should have been driven into the Sun by Type I migration, faster than they could
accrete their massive gaseous atmosphere; once formed, Jupiter and Saturn should have suffered Type-II migration towards the Sun,
becoming hot or warm giants, like most of the extra-solar planets
known so far; the planets most likely underwent a late reorganization of their orbital architecture, as indicated by the Late Heavy Bombardment (LHB) of the Moon, which suggests that a massive reservoir of small bodies suddenly became unstable.
Without pretension of providing any definitive answer, I will present
a scenario of the formation and evolution of the giant planets that
addresses these problems. More specifically I will present simulations of the dynamics of planetary cores in the vicinity of a `planet trap', which can exist at the transition between the active and the dead zones of the disk. I will illustrate how the dynamics of the fully formed planets in the gas disk leads to one of 6 possible mutual configurations, that are stable and avoid significant
migration towards the Sun. Finally I will describe our model for the
origin of the LHB and how it connects with some of these mutual stable configurations.
Date & Time
December 04, 2007 | 11:00am
Location
Bloomberg Hall Astrophysics LibrarySpeakers
Alessandro Morbidelli
Affiliation
Centre National de la Recherche Scientifique, France